Class / Patent application number | Description | Number of patent applications / Date published |
428557000 | Plural particulate metal components | 10 |
20090104469 | METHOD FOR FABRICATING A MOLDING COIL STRUCTURE AND A MOLDING COIL STRUCTURE - A method for fabricating a molding coil structure and a molding coil structure are provided. Forming at least one metal wire into a metal coil; forming a metal powder pillar with a high-pressure fabrication process; placing the metal powder pillar into a center of the metal coil; placing the metal coil and the metal pillar into a mold and stuffing a plurality of metal powder particles with high-pressure to form a covering structure surrounding and contacting the metal powder pillar and the metal coil to form the molding coil structure. | 04-23-2009 |
20100040899 | PLATING MEMBER AND PROCESS FOR PRODUCING THE SAME - A plating member comprising a lead-free plating material is obtained by the present invention in a manner such that whisker formation on a plating layer | 02-18-2010 |
20100266864 | Ultra-thin heat pipe - An ultra-thin heat pipe comprises a flat metal tube and one or more sintered powder portions. The flat metal tube has an upper tube wall, a lower tube wall and two lateral walls connecting with the upper tube wall and the lower tube wall. The sintered powder portions extends axially and are formed on an inner face of at least one of the upper tube wall, the lower tube wall and the lateral walls such that vapor passage space is formed at one or more sides of the sintered powder portions. | 10-21-2010 |
20130130050 | Multilayered Metal Including Titanium, and Method for Manufacturing Method Same - A multilayer metal structure is provided that includes an inner layer of metal materials which are not titanium and outer layers on both sides of the inner layer which are formed by rolling titanium powders. A method for manufacturing the multilayer metal structure is provided that includes preparing titanium powders and metal materials which are not titanium, feeding the titanium powders and the metal materials to a vertical type rolling mill, simultaneously rolling the titanium powders and the metal materials by the rolling mill and forming the multilayer metal structure consisting of an inner layer and outer layers on both sides of the inner layer, and post-forming the multilayer metal structure to increase a packing density. | 05-23-2013 |
20130316183 | LOCALIZED REPAIR OF SUPERALLOY COMPONENT - A method for repairing a damaged portion ( | 11-28-2013 |
20130337283 | Process For Joining Carbide And Non Carbide Materials And The Method Thereof - In one embodiment, a process for joining carbide and non-carbide materials is disclosed, the process comprising providing an interface binder material, positioning the interface binder material between the carbide material and non-carbide material to provide an assembly and heating the assembly to join the carbide material and non-carbide material through the interface binder material, wherein the interface binder material comprises a powder metal or powder alloy or a sheet of metal or alloy. | 12-19-2013 |
20150079417 | ANTI-CORROSION AND ANTI-EROSION PROTECTIVE LAYER CONTAINING ALUMINIUM - The corrosion and also the erosion properties of a layer system can be improved by using deposition-hardened particles. | 03-19-2015 |
20160089719 | ARTICLE AND METHOD FOR MAKING AN ARTICLE - An article and a method for making shaped cooling holes in an article are provided. The method includes the steps of depositing a metal alloy powder to form an initial layer including at least one aperture, melting the metal alloy powder with a focused energy source to transform the powder layer to a sheet of metal alloy, sequentially depositing an additional layer of the metal alloy powder to form a layer including at least one aperture corresponding to the at least one aperture in the initial layer, melting the additional layer of the metal alloy powder with the focused energy source to increase the sheet thickness, and repeating the steps of sequentially depositing and melting the additional layers of metal alloy powder until a structure including at least one aperture having a predetermined profile is obtained. The structure is attached to a substrate to make the article. | 03-31-2016 |
20160108204 | Transient Liquid Phase Compositions Having Multi-Layer Particles - Transient liquid phase compositions and bonding assemblies are disclosed. In one embodiment, a transient liquid phase composition includes a plurality of particles. Each particle includes a core, an inner shell surrounding the core, the inner shell, and an outer shell surrounding the inner shell. The core is made of a first high melting temperature material, the inner shell is made of a second high melting temperature material, and the outer shell is made of a low melting temperature material. The melting temperature of the low melting temperature material is less than the melting temperature of both the first and second high melting temperature materials. | 04-21-2016 |
20160201183 | ARTICLES HAVING AN EXPOSED SURFACE COATING FORMED FROM COPPER NANOPARTICLES | 07-14-2016 |